再エネ調和型次世代原子力プラント実現のための電力需給調整最適化システム開発計画

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高屋 茂  ; 吉川 雅紀 ; 植田 祥平   ; 板倉 充洋  ; 関 暁之*; 森本 泰臣*; 藤田 雄二郎*; 岡本 圭太*

Takaya, Shigeru; Yoshikawa, Masanori; Ueta, Shohei; Itakura, Mitsuhiro; Seki, Akiyuki*; Morimoto, Yasutomi*; Fujita, Takejiro*; Okamoto, Keita*

Next generation nuclear power plants such as high temperature gas-cooled reactors and sodium-cooled fast reactors are expected to play the role in regulated power supply without load-following operations, when combined with excess heat utilization technologies including heat storage and hydrogen production. In order to realize such next generation nuclear power plants harmonized with renewable energy, it is necessary to develop a system that optimizes the amounts of electricity generated, heat storage, and hydrogen production according to the amounts of electricity demanded and that generated by renewable energy, while ensuring the plant safety. This paper introduces a plan for developing an enhanced energy supply optimization system by using AI technologies.